KR20110114453A - Air vent - Google Patents

Abstract

According to the invention, an air ventilator (10) comprising a housing (12) and air guide means (14) pivotally and rotatably mounted to the housing (12) and having an outer surface with the general shape of a spherical segment. As an example, the air ventilator 10 includes a first sliding surface 30 provided on the housing 12 and facing the air guide means 14, and a second sliding surface provided on the air guide means 14. A sliding bearing 28 comprising a 32 is provided, wherein the air ventilator 10 is arranged between the housing 12 and the air guide means 14, the air guide means 14 being one or more pivots. A support 26 for mounting the air guide means to the housing 12 for pivotal movement about the axis, the support 26 being disposed on the opposite side of the sliding bearing 28 in the radial direction R; On the 26, a sliding bearing ( An air ventilator is provided, in which a precompression means 44 is provided which can apply a predetermined force towards 28.

Description

Air vent device {AIR VENT}

The present invention relates to an air ventilator comprising a housing and air guide means pivotally and rotatably mounted to the housing and having an outer surface having the general shape of a spherical segment.

Such air ventilators are known in different structures from the prior art. The air ventilator generally serves to adjust in a desired manner the volume and direction of air flow supplied into the vehicle for air conditioning. Patent document WO 2008/128820 A1 discloses, for example, an air ventilator comprising air guide means having a substantially spherical segment shape and mounted to a housing via a plurality of silicon surfaces. However, in the case of longer use and due to the resulting compression or abrasion of the sliding surface, larger clearances of the air guiding means can occur in the housing. Other air ventilation devices are known from DE 20 2005 000 794 U1. Here, the air guiding means is fixed through two supports and is rotatably and pivotally mounted to the housing. When used for longer periods of time, abrasion and wear of the support may also result in larger air gaps in the air guiding means in this air ventilator. In addition, a channel is formed by the support, through which air can flow through the air guide means and reach the interior of the vehicle.

It is an object of the present invention to provide an air ventilator which is permanently used and at the same time cost effective to manufacture.

To achieve this object, an air ventilator is provided comprising a housing and air guide means pivotally and rotatably mounted to the housing and having an outer surface having the general shape of a spherical segment. The air ventilator comprises a sliding bearing comprising a first sliding face provided on the housing and facing the air guide means and a second sliding face provided on the air guide means, and a support disposed between the housing and the air guide means. The support is then mounted to the housing such that the air guide means pivotally about one or more pivot axes. The support is arranged on the opposite side of the sliding bearing in the radial direction. Pre-pressing means are provided on the support, and may apply a predetermined force directed to the sliding bearing to the air guide means. The precompression means makes it possible to compensate or reduce the play of the sliding bearing or the support which occurs during the use of the air ventilation device. For this purpose, the prepressing means exerts a predetermined force on the air guide means towards the sliding bearing. That is, the air guiding means is pressed against the sliding bearing by the pre-pressing means so as to be mounted in the housing without play.

The precompression means may, for example, have a spring element capable of exerting a predetermined force towards the sliding bearing on the air compression means. The spring element subsequently applies a predetermined force to the air guiding means towards the sliding bearing, so that readjustment of the prepressing means is unnecessary. The air guiding means is thus permanently mounted in the housing without play.

It is also contemplated that the prepress device is provided with an adjustment device capable of adjusting the force towards the sliding bearing. The adjusting device allows, on the one hand, the readjustment of the force towards the sliding bearing, for example, when the clearance of the air guiding means in the housing is increased. On the other hand, the contact force of the air guiding means against the sliding bearing, and accordingly the resistance to the rotation or pivoting of the air guiding means in the housing can be adjusted. By using a suitable adjustment device, it is also possible to adjust, for example, the spring force that the spring element presses against the air guide means.

Preferably, at least one of the sliding surfaces has a sliding element formed of a flexible elastic material, in particular TPE, TPU, silicone or natural rubber. These materials, on the one hand, ensure low friction sliding of the air guiding means in the housing, thus allowing simple rotation and / or pivoting of the air guiding means. On the other hand, this material provides a damping function due to its flexible nature, so that the air guide means can be mounted in the housing without play.

In order to increase the airtightness of the housing, it is also possible to provide a recess in which the sliding element is at least partially arranged in the housing and / or the air guide means. The air guiding means can thus be mounted in the housing with a minimum gap size, such that there is no gap or only a small gap every week between the housing and the air guiding means, which prevents leakage flow or significantly reduces leakage flow.

The support includes a rail and a slide displaceable on the rail. The rail is preferably configured to be bent in order to be able to be mounted in the gap between the air guiding means and the housing. The slider is displaced on the rail when the air guide means is pivoted.

The slider is attached to the air guide means, for example. In this case, the rail is firmly mounted to the housing in the direction of displacement of the slider so that the slider is displaced on the rail when the air guiding means is pivoted.

In order to ensure the further operability of the air guide means, the support has, for example, a pivot pin, with which the air guide means can be pivoted. The pivot axis of the pivot pin is preferably perpendicular to the pivot axis of the rail and the slider mounted on the rail, so that the air ventilator has a wide adjustment range.

The pivot pin preferably couples the rail to the housing, which means that the rail is rotatably or pivotally mounted to the housing via the pivot pin.

A sealing means can be provided between the housing and the air guide means to prevent air from flowing past the air guide means and between the air guide means and the housing. This sealing means may have an annular shape, for example, to cover the entire gap between the housing and the air guide means.

Further features and advantages will become apparent from the following description in conjunction with the accompanying drawings.

According to the invention, there is provided an air ventilation device which is permanently used and at the same time cost effective in manufacturing.

1 is a perspective view of an air ventilation device according to the present invention.
FIG. 2 is a first exploded perspective view of the air vent of FIG. 1.
3 is a second exploded perspective view of the air vent of FIG. 1.
4 is a cross-sectional view through the air vent of FIG.

The air ventilator 10 shown in FIG. 1 has a housing 12 in which the air guide means 14 is pivotally mounted about the longitudinal axis A of the air ventilator 10. The housing 12 is formed by the first housing part 16 and the second housing part 20. The first housing portion 16 comprises an almost hemispherical inner surface 17 (see also FIG. 2) and a connection 18 connecting the air ventilation device 10 to the ventilation channel. The second housing part 20 of the housing 12 has an annular shape and may be mounted to the first housing part 16 by a plurality of latching connecting parts 22.

The air guiding means 14 is substantially formed to have a spherical segment shape and has a plurality of vanes 24 which deflect air flow and are arranged concentrically and radially. In the first mounting step, the air guide means 14 is inserted into the first housing part 16 and then fixed by placing the second housing on top. On the second housing part 20 a sealing element 21 is provided which is adapted to seal the gap between the housing 12 and the air guide means 14.

The air ventilator 10 comprises a support 26 and a radially opposite side of the support for mounting the air guide means 14 to the housing so as to pivotally move about the longitudinal axis A of the air ventilator 10. It has a sliding bearing 28 disposed in the.

Here, the sliding bearing 28 is a first sliding surface 30 provided on the inner surface 17 of the housing 12, and in this case the first sliding surface 32 corresponding to the outer surface of the air guide means 14 Has The first sliding face 30 is in this case formed in a sliding element 34 which is formed of a silicone material and is elastically deformable. As can be seen in FIG. 3, the housing 12 is provided with a recess 36 which is attached by the latching connection 37 so that the sliding element 34 protrudes only a minimum amount from the inner surface 17 of the housing 12. Prepared.

The support 26 has a slider 38 attached to the air guide means 14 and a rail 40 pivotally mounted to the housing 12 via a pivot pin 42.

By displacing the slider 28 on the rail 40, the air guide means 14 can be pivoted in the horizontal direction with respect to FIG. 2. Due to the pivot pin 42, the air guide means can pivot vertically with respect to FIG. 2. Thereby, a cardanic mounting having two pivotal axes perpendicular to each other is provided, by which the air guide means 14 can be pivoted in any desired direction.

As can be seen in detail in FIG. 4, since the support 26 allows for mobility in the radial direction R, the position of the air guide means 14 relative to the sliding surface 30 can be varied. The air guide means 14 can in particular be pressed against the sliding surface 30. For this purpose, a prepressing means 44 is provided on the support 26. The pre-pressing means 44 is provided with a spring 46 adapted to apply a predetermined force to the cantilever guide means 14 toward the sliding bearing in the radial direction R. By applying a predetermined force towards the sliding bearing 28 to the air guide means, it is possible to compensate for the possible play between the air guide means 14 and the housing 12. Thus, the air guide means 14 is mounted without clearance through the support 26 and the sliding bearing 28.

The precompression means 44 may comprise, for example, a spring element capable of applying a predetermined force towards the sliding bearing 28 to the air guide means 14. However, it is also contemplated that the prepressing means 44 is provided with an adjusting device capable of adjusting the position of the support 26 or setting the spring force with respect to the sliding bearing 28. It may also be made that the slider 38 is configured to bend, for example, in order to be able to elastically press the air guide means 14 against the sliding bearing 28.

Other types of supports may also be contemplated instead of the embodiment of the support 26 presented herein.

Instead of the silicone used herein, it is also possible to use other flexible elastomers with good sliding properties such as TPE, TPU or natural rubber. It is also contemplated that the sliding element is fixed to the air guide means 14.

10: air ventilator
12: housing
14: air guidance means
26: support
28: sliding bearing
44: pre-stressing means

Claims (10)

An air ventilator (10) comprising a housing (12) and air guide means (14) pivotally and rotatably mounted to the housing (12) and having an outer surface with the general shape of a spherical segment,
The air ventilator 10 includes a first sliding surface 30 provided on the housing 12 and facing the air guide means 14, and a second sliding surface 32 provided on the air guide means 14. Having a sliding bearing 28 comprising:
The air ventilator 10 is arranged between the housing 12 and the air guiding means 14 and provides air guide means to the housing 12 such that the air guiding means 14 pivots about one or more pivot axes. It has a support 26 for mounting,
The support 26 is arranged on the opposite side of the sliding bearing 28 in the radial direction R, on which the force directed to the sliding bearing 28 can be applied to the air guide means 14. An air ventilation device, wherein a precompression means is provided. 2. The air ventilation device according to claim 1, wherein the prepressing means comprises a spring element adapted to apply a force directed toward the sliding bearing to the air guiding means. The air ventilation device according to claim 1 or 2, wherein the pre-pressing means (44) is provided with an adjusting device capable of adjusting the force directed to the sliding bearing (28). 4. A sliding element (34) according to any one of the preceding claims, wherein at least one of the sliding faces (30, 32) has a sliding element (34) formed of a flexible elastic material, in particular TPE, TPU, silicone or natural rubber. Air ventilator characterized in that. 5. An air ventilator according to claim 4, characterized in that a recess (36) is provided on the housing (12) and / or air guide means (14) in which the sliding element (34) is at least partially disposed. 6. Air ventilation according to any of the preceding claims, characterized in that the support (26) comprises a rail (40) and a slider (38) displaceably mounted on the rail (40). Device. 7. Air ventilation device according to claim 6, characterized in that the slider (38) is attached to the air guide means (14). 8. Air according to any one of the preceding claims, characterized in that the support (26) has a turning pin (42), around which the air guiding means (14) can be pivoted. Ventilation system. 9. An air ventilation device according to claim 8, wherein the pivot pin (42) engages the rail (40) and the housing (12). 10. Air ventilator according to one of the preceding claims, characterized in that a sealing element is provided between the housing (12) and the air guide means (14).

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